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Online since: September 2014
Authors: D.V. Lychagin, S.N. Fedoseev, A.S. Sharafutdinova
Three-stage model for nucleation of graphite in grey cast iron, Materials Science and Technology, 26, 12 ((2010) 1439-1447
Charge materials and technology of melt and structure of gray cast iron.
Journal of Materials Processing Technology, 162-163 (2005) 465-470
Materials Science and Engineering A, 488, 1-2 (2008) 529-539
Application of ultrafine powders to improve the properties of metals and alloys, Materials, 10 (2000) 45–53
Charge materials and technology of melt and structure of gray cast iron.
Journal of Materials Processing Technology, 162-163 (2005) 465-470
Materials Science and Engineering A, 488, 1-2 (2008) 529-539
Application of ultrafine powders to improve the properties of metals and alloys, Materials, 10 (2000) 45–53
Online since: January 2013
Authors: Bai Lian Sun, Peng Liu, Ming Lu, Jian Ping Jiang
Experimental materials and methods
The flying plate material is TA2 pure titanium and the base plate material is Q235 carbon steel.
Chemical compositions of above two materials can be seen in table 1.
Joining of titanium/stainless steel by explosive welding and effect on interface.Journal of Materials Processing Technology, 169(2005) 127–133
Ordnance Material Science and Engineering, 2011,34(1):14-17
Materials For Mechanical Engineering, 2012,36(1):48-51.
Chemical compositions of above two materials can be seen in table 1.
Joining of titanium/stainless steel by explosive welding and effect on interface.Journal of Materials Processing Technology, 169(2005) 127–133
Ordnance Material Science and Engineering, 2011,34(1):14-17
Materials For Mechanical Engineering, 2012,36(1):48-51.
Online since: June 2014
Authors: Qi Lei Sun, Ze Rui Liu, Ji Liang Liu, Chong Fang, Qing Nan Zhang
Experimental
Materials and specimens.
TiN plays “pinning” role in the materials, which can enhance the strength and corrosion resistance of the materials.
Journal of Nuelear Seienee and Engineering, 1991,11(3):226-237
Materials Science and Engineering A332 (2002), p. 223-230 [4] Hickling J ,Wieling N.
Materials Chemistry and Physics, Vol. 97 (2006), p.37–49.
TiN plays “pinning” role in the materials, which can enhance the strength and corrosion resistance of the materials.
Journal of Nuelear Seienee and Engineering, 1991,11(3):226-237
Materials Science and Engineering A332 (2002), p. 223-230 [4] Hickling J ,Wieling N.
Materials Chemistry and Physics, Vol. 97 (2006), p.37–49.
Online since: September 2025
Authors: Innocentia G. Mkhize, Ephraim Igberase
The novelty of this work lies in its integrated approach that combines material science innovation with practical engineering considerations.
Highlighting the significance of structural modification in improving biopolymer materials' adsorption capacity.
Kyzas, Chitosan-based materials for heavy metal adsorption: Recent advancements, challenges and limitations, J Mol Struct 1309 (2024)
Zuo, Comparison of Adsorption Capacity and Removal Efficiency of Strontium by Six Typical Adsorption Materials, Sustainability (Switzerland) 14 (2022). https://doi.org/10.3390/su14137723
Zuo, Comparison of Adsorption Capacity and Removal Efficiency of Strontium by Six Typical Adsorption Materials, Sustainability (Switzerland) 14 (2022). https://doi.org/10.3390/su14137723
Highlighting the significance of structural modification in improving biopolymer materials' adsorption capacity.
Kyzas, Chitosan-based materials for heavy metal adsorption: Recent advancements, challenges and limitations, J Mol Struct 1309 (2024)
Zuo, Comparison of Adsorption Capacity and Removal Efficiency of Strontium by Six Typical Adsorption Materials, Sustainability (Switzerland) 14 (2022). https://doi.org/10.3390/su14137723
Zuo, Comparison of Adsorption Capacity and Removal Efficiency of Strontium by Six Typical Adsorption Materials, Sustainability (Switzerland) 14 (2022). https://doi.org/10.3390/su14137723
Online since: June 2025
Authors: Marcell Kiss, Róbert Keresztes, Gabor Kalacska
The initial step involved sourcing the raw materials.
The shaft for the mechanical seals is composed of two materials.
Journal of Manufacturing Processes, 2020, 58: 136-162
Materials Today: Proceedings, 2022, 62: 3485-3492
Construction and Building Materials, 2023, 402: 132931
The shaft for the mechanical seals is composed of two materials.
Journal of Manufacturing Processes, 2020, 58: 136-162
Materials Today: Proceedings, 2022, 62: 3485-3492
Construction and Building Materials, 2023, 402: 132931
Online since: May 2011
Authors: Marzieh Kadivar, Mehdi Kadivar, Kazem Barkhordari
Such a wide range of particles size, i.e. more than 6 orders of magnitude, has made soil one of the most complicated materials to be studied, understand, modeled, and utilized.
Investigation of Soil Nanostructure by Electron Microscopes Understanding materials’ nature and their structures has been always of much significance.
Generally, when materials get smaller to nanoscale, their properties become remarkably different or have an increase.
Ganneau: From nanohardness to strength properties of cohesive- frictional materials – application to shale materials, Massachusetts institute of technology. (2004) [10] J.A.
Carter: Transmission electron microscopy, materials science, Second edition (2009)
Investigation of Soil Nanostructure by Electron Microscopes Understanding materials’ nature and their structures has been always of much significance.
Generally, when materials get smaller to nanoscale, their properties become remarkably different or have an increase.
Ganneau: From nanohardness to strength properties of cohesive- frictional materials – application to shale materials, Massachusetts institute of technology. (2004) [10] J.A.
Carter: Transmission electron microscopy, materials science, Second edition (2009)
Online since: September 2013
Authors: Bi Ying Sha, Qing Shan Liu, Xiao Ying Yin, Ling Zhang
CS-graft-poly(methyl methacrylate) copolymer nanoparticles are new polymeric materials that possess both good mechanical and biocompatibility properties[9-11].
Fig.1 Chemical structure of Chitosan Materials and Instruments Chitosan ( MW of 45 kDa and 95% degree of deacetylation) was got form Sigma–Aldrich Co., Ltd.
Influence of dopant concentration on thermo-optic properties of PMMA composite[J].Materials Letters,2006,60:1238–1241 [5] RICHARD YOUNG, MALGORZATA DUKAT.
Materials Letters ,2004,58: 3681–3685
Chitosan microspheres as a potential carrier for drugs International Journal of Pharmaceutics 274 (2004) 1–33 [10] Yushan Liu, Peng Liu, Zhixing Su.
Fig.1 Chemical structure of Chitosan Materials and Instruments Chitosan ( MW of 45 kDa and 95% degree of deacetylation) was got form Sigma–Aldrich Co., Ltd.
Influence of dopant concentration on thermo-optic properties of PMMA composite[J].Materials Letters,2006,60:1238–1241 [5] RICHARD YOUNG, MALGORZATA DUKAT.
Materials Letters ,2004,58: 3681–3685
Chitosan microspheres as a potential carrier for drugs International Journal of Pharmaceutics 274 (2004) 1–33 [10] Yushan Liu, Peng Liu, Zhixing Su.
Online since: May 2012
Authors: Dao Chun Qin, Qiu Xue, Feng Juan Wu, Wan Xi Peng, Le Cui
Study on Inhibition Effect of Extractives on Building Bamboo’s Termite Prevention
PENG Wanxia,1, WU Fengjuan, CUI Le, XUE Qiu,QIN Daochun2
1School of Materials Science and Engineering, Central South University of Forestry and Technology, City Changsha 410004, P.R.
In particular, Bamboo was used for a large number of building materials.
Materials and Methods Materials.
Acknowledgements This work was financially supported by the Project Supported by National Natural Science Foundation of China (No. 31170532), Program for New Century Excellent Talents in University(No.
Han-qing.Journal of Northwest Normal University(Natural Science Edition), Vol.37(2001), p.77-8 [5] ZH.
In particular, Bamboo was used for a large number of building materials.
Materials and Methods Materials.
Acknowledgements This work was financially supported by the Project Supported by National Natural Science Foundation of China (No. 31170532), Program for New Century Excellent Talents in University(No.
Han-qing.Journal of Northwest Normal University(Natural Science Edition), Vol.37(2001), p.77-8 [5] ZH.
Online since: March 2011
Authors: Jian Zhang Guo, Bin Xu
Most of them have been discussed on steel that used as the substrate materials.
Experimental details 2.1 Experimental materials and reagents The specimens with dimension of Ф19mm×2mm were cut from AC7A aluminum alloy.
The white right part is the substrate material, the black part is the mosaic material and the middle part is the coating.
References [1] Hu Yong-jun, Xiong Ling, Meng Ji-long: Applied Surface Science, 253 (2007), p. 5029 [2] Guojun Qia, Lambertus G.J.Fokkinka, Kee Heng Chewb: Thin Solid Films, 406(2002), p. 219 [3] Vishal Saxena, R.
Sharma: Surface & Coatings Technology, 201 (2006), p. 855 [4] Jueling Chen, Gang Yu, Bonian Hu: Surface & Coatings Technology, 201 (2006), p. 686 [5] Choji Fukuhara, Yoshiyuki Kamata, Akira Igarashi: Applied Catalysis A: General, 330 (2007), p. 108 [6] Choji Fukuharaa, Hiromichi Ohkuraa, Yoshiyuki Kamataa: Applied Catalysis A: General, 273 (2004), p. 125 [7] D.Takács, L.Sziráki, T.I.Török, J.Sólyom, Z.Gácsi, K.Gál-Solymos: Surface & Coatings Technology, 201 (2007), p. 4526 [8] Xiufang Cui, Guo Jin, Qingfen Li, Yuyun Yang, Ying Li, Fuhui Wang: Materials Chemistry and Physics, 121 (2010), p. 308 [9] Isao Shitanda, Atsushi Sato, Masayuki Itagaki, KunihiroWatanabe, Nobuyuki Koura: Electrochimica Acta, 54 (2009), p. 5889 [10] Yoram de Hazan, Dennis Werner, Markus Zgraggenc, Michael Groteklaes, Thomas Graule: Journal of Colloid and Interface Science, 328 (2008), p. 103 [11] Vishal Saxena, R.Uma Rani, A.K.
Experimental details 2.1 Experimental materials and reagents The specimens with dimension of Ф19mm×2mm were cut from AC7A aluminum alloy.
The white right part is the substrate material, the black part is the mosaic material and the middle part is the coating.
References [1] Hu Yong-jun, Xiong Ling, Meng Ji-long: Applied Surface Science, 253 (2007), p. 5029 [2] Guojun Qia, Lambertus G.J.Fokkinka, Kee Heng Chewb: Thin Solid Films, 406(2002), p. 219 [3] Vishal Saxena, R.
Sharma: Surface & Coatings Technology, 201 (2006), p. 855 [4] Jueling Chen, Gang Yu, Bonian Hu: Surface & Coatings Technology, 201 (2006), p. 686 [5] Choji Fukuhara, Yoshiyuki Kamata, Akira Igarashi: Applied Catalysis A: General, 330 (2007), p. 108 [6] Choji Fukuharaa, Hiromichi Ohkuraa, Yoshiyuki Kamataa: Applied Catalysis A: General, 273 (2004), p. 125 [7] D.Takács, L.Sziráki, T.I.Török, J.Sólyom, Z.Gácsi, K.Gál-Solymos: Surface & Coatings Technology, 201 (2007), p. 4526 [8] Xiufang Cui, Guo Jin, Qingfen Li, Yuyun Yang, Ying Li, Fuhui Wang: Materials Chemistry and Physics, 121 (2010), p. 308 [9] Isao Shitanda, Atsushi Sato, Masayuki Itagaki, KunihiroWatanabe, Nobuyuki Koura: Electrochimica Acta, 54 (2009), p. 5889 [10] Yoram de Hazan, Dennis Werner, Markus Zgraggenc, Michael Groteklaes, Thomas Graule: Journal of Colloid and Interface Science, 328 (2008), p. 103 [11] Vishal Saxena, R.Uma Rani, A.K.
Online since: June 2014
Authors: Zainal Bidattul Syirat, Mahamad Hakimi Ibrahim, Abdul Aziz Astimar, Zainal Nahrul Hayawin
Materials and Methods
Palm oil mill effluent (POME) sludge were obtained from Palm Oil Mill, Serting, Negeri Sembilan. 3 kg of POME sludge was filled into each worm bins. 50 earthworms (Eudrillus eugeniae) were added into the first bin and 100 earthworms of the same species were added into the next bin.
The C:N ratios of substrate material reflect the organic waste mineralization and stabilization during the process of decomposition.
Review of Current Palm Oil Mill Effluent (POME) Treatment Methods: Vermicomposting as a Sustainable Practice, World Applied Sciences Journal 11 (1) (2010) 70-81
Science of The Total Environment 394 (2008) 237–243
Science of The Total Environment 394 (2008) 237–243
The C:N ratios of substrate material reflect the organic waste mineralization and stabilization during the process of decomposition.
Review of Current Palm Oil Mill Effluent (POME) Treatment Methods: Vermicomposting as a Sustainable Practice, World Applied Sciences Journal 11 (1) (2010) 70-81
Science of The Total Environment 394 (2008) 237–243
Science of The Total Environment 394 (2008) 237–243